Rafter bracket

ABSTRACT

A rafter bracket configured to connect a vertical post to a rafter and beam(s) is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. The horizontal plate may be perpendicular to the upper and lower vertical side plates and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a lower cavity that receives the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates and positioned between two of the upper vertical side plates and may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. One or more of the lower vertical side plates may receive lateral plates that define a lateral cavity receiving the beam.

RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.16/273,870, filed Feb. 12, 2019, which is a continuation-in-part of U.S.patent application Ser. No. 16/113,022, filed Aug. 27, 2018, now U.S.Pat. No. 10,202,766, which is a continuation-in-part of U.S. patentapplication Ser. No. 15/912,203, filed Mar. 5, 2018, now U.S. Pat. No.10,100,058. The contents of the aforementioned are incorporated byreference in their entirety.

BACKGROUND Technical Field

The present invention relates to building materials, more particularly,brackets for connecting a wooden post to a rafter for use in a post andbeam and timber frame construction.

Background of the Invention

In light frame construction, a birdsmouth joint, also known as a bird'sbeak cut, is a woodworking joint that is generally used to connect aroof rafter to the top plate of a vertical post (such as a wall stud).The birdsmouth joint is an indentation cut into the rafter whichconsists of a “seat cut” (the face of which rests on the top plate) anda “heel cut” or “plumb cut” (the face of which lies parallel to thesupporting wall), forming a shape resembling a bird's mouth. Generally,the indentation should not extend unsupported on the interior in orderto maintain the structural integrity of the rafter because theunsupported section can split along the grain of the wood. The joint isgenerally fastened with nails by toenailing the rafter from the sideinto the top plate below or using a strap. However, such system has anumber of disadvantages, particularly if the indentation is not cutcorrectly, including 1) the strength of the connection of the roofsystem to the wall assembly; 2) reduced cross-section of the rafter dueto the indentation; and 3) time and skill in cutting the indentation.

Thus, improved connections between studs are rafters are needed.

BRIEF SUMMARY

A rafter bracket configured to connect a vertical post of a building toa rafter of a roof of the building is described herein. The rafterbracket may include lower vertical side plates, a horizontal plate, andupper vertical side plates. Two of the upper vertical side plates andtwo of the lower vertical side plates may include fastener apertures.The horizontal plate may be perpendicular to the upper and lowervertical side plates, may be attached to the upper vertical side platebottoms and to the lower vertical side plate tops and may separate theupper vertical side plates from the lower vertical side plates. Thehorizontal plate and lower vertical side plates may create a generallyrectangular cavity that receives the vertical post and fasteners may bepositioned through the lower vertical side plate fastener apertures andthrough the vertical post. Meanwhile, the rafter may be positioned onone of the upper vertical side plates (preferably the lowest of theupper vertical side plates) and positioned between two of the uppervertical side plates (which are preferably opposite each other andinclude the fastener apertures). The rafter may be angled at an acuteangle relative to the vertical post as well as the upper and lowervertical side plates. Preferably, the vertical post and rafter are woodand the vertical post may be a wall stud.

The bracket may include one or more of the following features (and anycombination thereof): 1) two of the upper vertical side posts may beopposite one another and perpendicular to another upper vertical sidepost so that the upper cavity is bounded on three sides; 2) two of theupper vertical side posts opposite each other may include the fastenerapertures and may be taller than the other upper vertical side post(which may lack a fastener aperture and may be in the form of a ledgeextending above the horizontal plate); 3) the rafter may be positionedon the shortest of the upper vertical side posts; 4) the bracket may beopen opposite the shortest upper vertical side posts; 5) the uppervertical side posts may taper in decreasing height from an end adjacentto the shorter upper vertical side post to the open end to mirror theangle of the rafter; 6) the fastener apertures in each of the uppervertical side posts may be offset to mirror the angle of the rafter andthe taper and the upper vertical side posts (including fastenerapertures) may be mirror images of each other; 7) two of the lowervertical side posts may be opposite one another and perpendicular to twoother upper vertical side post so that the lower cavity is bounded onfour sides; 8) two of the upper vertical side posts opposite each othermay include the fastener apertures and may be taller than the otherupper vertical side posts (which may lack a fastener aperture and may bein the form of ledge extending below the horizontal plate); 9) thefastener apertures in the opposite lower vertical side posts may bealigned; 10) bolts, lags, screws or other fasteners may be positionedthrough the upper vertical side post fastener apertures and through therafter and additional fasteners may be positioned through the lowervertical side post fastener apertures and the vertical post to securethe rafter and vertical post in place; 11) the distance between theupper vertical side plates with fastener apertures (which may be taperedas described above) may be less than the distance between the lowervertical side plates with fastener apertures to provide stability; 12)the upper vertical side plates with fastener apertures may beperpendicular to the lower vertical side plates with fastener aperturesto provide stability; 13) the shortest of the upper vertical side platesmay be low enough so that the rafter extends relative to the verticalside plates and vertical post at an angle less than 60 (preferably lessthan 60 degrees); 14) the rafter may also be positioned on the open endof the bracket opposite the lowest upper vertical side plate; 15) thelower vertical side plates with fastener apertures may each comprise avariable width with a wider portion and a narrower portion and theshorter lower vertical side plates may extend between the widerportions; 16) the shorter upper vertical side plate top may be generallyflat as it extends between the taller upper vertical side plates; 17) asshown in the drawings, the vertical post may not touch the rafter whenthe vertical post and the rafter are positioned in the rafter bracket;18) the horizontal plate may be generally rectangular in shape and thelower vertical side plates may be spaced about the perimeter of thehorizontal plate, whereas the upper vertical side plates may be indentedas shown in the drawings; 19) as shown in the drawings, the rafter neednot be specially cut at the interface between the rafter and rafterbracket; 20) one or more lateral plates that extend from one or more ofthe lower vertical side plates (and away from the lower cavity) in orderto join one or more beams to the rafter and vertical post; and/or 21)one or more braces supporting the lateral plates.

Without being bound by any particular theory, it is believed that therafter bracket may provide a number of advantages including: 1)providing a stronger connection method of the roof system to the wallassembly; 2) allows the rafter to retain greater structural integritybecause no birdsmouth joint is made, which by necessity reduces thecross sectional area of the rafter significantly; and 3) facilitatesfaster and cheaper construction due to the fact that multiple specialtycuts are not required for each rafter.

In some embodiments, the present disclosure provides a rafter bracketconfigured to connect a vertical post of a building to a rafter of thebuilding, the rafter bracket comprising: a first lower vertical sideplate comprising at least one first lower vertical side plate fasteneraperture, a first lower vertical side plate top, a first lower verticalside plate bottom, a first lower vertical side plate height extendingfrom the first lower vertical side plate top to the first lower verticalside plate bottom, a first lower vertical side plate first end, a firstlower vertical side plate second end opposite the first end, and a firstlower vertical side plate width extending from the first lower verticalside plate first end to the first lower vertical side plate second endand generally perpendicular to the first lower vertical side plateheight; a second lower vertical side plate opposite the first lowervertical side plate and extending generally parallel to the first lowervertical side plate, the second lower vertical side plate comprising atleast one second lower vertical side plate fastener aperture, a secondlower vertical side plate top, a second lower vertical side platebottom, a second lower vertical side plate height extending from thesecond lower vertical side plate top to the second lower vertical sideplate bottom and generally parallel to the first lower vertical sideplate height, a second lower vertical side plate first end, a secondlower vertical side plate second end opposite the first end, and asecond lower vertical side plate width extending from the second lowervertical side plate first end to the second lower vertical side platesecond end and generally perpendicular to the first lower vertical sideplate height; a third lower vertical side plate extending generallyperpendicular to (and preferably extending between) the first and secondlower vertical side plates and comprising a third lower vertical sideplate top, a third lower vertical side plate bottom, a third lowervertical side plate height extending from the third lower vertical sideplate top to the third lower vertical side plate bottom and generallyparallel to the first and second lower vertical side plate heights, athird lower vertical side plate proximal end, a third lower verticalside plate distal end, and a third lower vertical side plate lengthextending from the third lower vertical side plate proximal end to thethird lower vertical side plate distal end and generally perpendicularto the first and second lower vertical side plate widths; a fourth lowervertical side plate opposite the third lower vertical side plate,extending generally parallel to the third lower vertical side plate andextending generally perpendicular to (and preferably extending between)the first and second lower vertical side plates, the fourth lowervertical side plate comprising a fourth lower vertical side plate top, afourth lower vertical side plate bottom, a fourth lower vertical sideplate height extending from the fourth lower vertical side plate top tothe fourth lower vertical side plate bottom and generally parallel tothe first, second and third lower vertical side plate heights, a fourthlower vertical side plate proximal end, a fourth lower vertical sideplate distal end, and a fourth lower vertical side plate lengthextending from the fourth lower vertical side plate proximal end to thefourth lower vertical side plate distal end and generally parallel tothe third lower vertical side plate length; a horizontal plate connectedto at least one of (and preferably all) the first, second, third andfourth lower vertical side plates (preferably the tops of each), thehorizontal plate located above the first, second, third and fourth lowervertical side plate bottoms (and preferably extending from the firstlower vertical side plate to the second lower vertical side plate), thehorizontal plate extending generally perpendicular to the first, second,third, and fourth lower vertical side plate heights, the horizontalplate comprising a horizontal plate first end, a horizontal plate secondend, a horizontal plate width extending from the horizontal plate firstend to the horizontal plate second end and generally parallel to thefirst lower vertical side plate width and second lower vertical sideplate width, a horizontal plate proximal end, a horizontal plate distalend, and a horizontal plate length extending from the horizontal plateproximal end to the horizontal plate distal end and generallyperpendicular to the horizontal plate width; a lower cavity defined bythe first, second, third and fourth lower vertical side plates; a firstupper vertical side plate comprising at least one first upper verticalside plate fastener aperture, the first upper vertical side plate havinga first upper vertical side plate top located above the first, second,third and fourth lower vertical side plate tops and above the horizontalplate, a first upper vertical side plate bottom (preferably attached tothe horizontal plate), a first upper vertical side plate heightextending from the first upper vertical side plate top to the firstupper vertical side plate bottom and generally parallel to the first andsecond lower vertical side plate heights, a first upper vertical sideplate first end, a first upper vertical side plate second end oppositethe first end, and a first upper vertical side plate length extendingfrom the first upper vertical side plate first end to the first uppervertical side plate second end and generally perpendicular to the firstupper vertical side plate height; a second upper vertical side plateopposite the first upper vertical side plate and extending generallyparallel to the first upper vertical side plate, the second uppervertical side plate comprising at least one second upper vertical sideplate fastener aperture, the second upper vertical side plate having asecond upper vertical side plate top located above the first, second,third and fourth lower vertical side plate tops and above the horizontalplate, a second upper vertical side plate bottom (preferably attached tothe horizontal plate), a second upper vertical side plate heightextending from the second upper vertical side plate top to the secondupper vertical side plate bottom and generally parallel to the first andsecond lower vertical side plate heights, a second upper vertical sideplate first end, a second upper vertical side plate second end oppositethe first end, and a second upper vertical side plate length extendingfrom the second upper vertical side plate first end to the second uppervertical side plate second end and generally perpendicular to the firstand second upper vertical side plate height; a third upper vertical sideplate extending generally perpendicular to (and preferably extendingfrom) the first and second upper vertical side plates and comprising athird upper vertical side plate top (preferably located above the first,second, third and fourth lower vertical side plate tops) located abovethe horizontal plate, a third upper vertical side plate bottom(preferably attached to the horizontal plate), a third upper verticalside plate height extending from the third upper vertical side plate topto the third upper vertical side bottom and generally parallel to thefirst and second lower vertical side plate heights, a third uppervertical side plate first end, a third upper vertical side plate secondend opposite the first end, and a third upper vertical side plate lengthextending from the third upper vertical side plate first end to thethird upper vertical side plate second end and generally perpendicularto the first and second upper vertical side plate length; an uppercavity defined by the first upper vertical side plate, second uppervertical side plate, third upper vertical side plate, and horizontalplate; wherein the first lower vertical side plate and second lowervertical side plate are separated a first distance, the first distancesubstantially constant along the first lower vertical side plate andsecond lower vertical side plate widths and generally parallel to thehorizontal plate length, wherein the first upper vertical side plate andsecond upper vertical side plate are separated a second distance, thesecond distance substantially constant along the first upper verticalside plate and second upper vertical side plate lengths, wherein avertical post of a building is positioned between the first, second,third and fourth lower vertical side plate in the lower cavity, whereina rafter of the building is positioned on the third upper vertical sideplate top and between the first and second upper vertical side plates,wherein at least one upper fastener is positioned through a fasteneraperture of the first upper vertical side plate, through the rafter andthen through the second upper vertical side plate, and further whereinat least one lower fastener is positioned through a fastener aperture ofthe first lower vertical side plate, through the vertical post and thenthrough the second lower vertical side plate.

Optionally, the first lower vertical side plate comprises a plurality offirst lower vertical side plate fastener apertures, wherein the secondlower vertical side plate comprises a plurality of second lower verticalside plate fastener apertures aligned with the first lower vertical sideplate fastener apertures, wherein the first upper vertical side platecomprises a plurality of first upper vertical side plate apertures, andfurther wherein the second upper vertical side plate comprises aplurality of second upper vertical side apertures aligned with the firstupper vertical side plate fastener apertures, and further wherein eachfastener aperture comprises a fastener. Optionally, the first uppervertical side plate comprises at least two upper vertical side platefastener apertures adjacent to the first upper vertical side plate firstend, wherein the first upper vertical side plate comprises at least twoupper vertical side plate fastener apertures adjacent to the first uppervertical side plate second end, wherein the second upper vertical sideplate comprises at least two upper vertical side plate fastenerapertures adjacent to the second upper vertical side plate first end,wherein the second upper vertical side plate comprises at least twosecond upper vertical side plate fastener apertures adjacent to thesecond upper vertical side plate second end, wherein the third uppervertical side plate is adjacent to the first and second upper verticalside plate first ends, wherein at least one first upper vertical sideplate fastener aperture adjacent to the first upper vertical side platefirst end is above all of the first upper vertical side plate fastenerapertures adjacent to the first upper vertical side plate second end,wherein at least one second upper vertical side plate fastener apertureadjacent to the upper vertical side plate first end is above all of thesecond upper vertical side plate fastener apertures adjacent to thesecond upper vertical side plate second end, and further wherein therafter extends upwardly at an acute angle (preferably of less than 60,more preferably less than 45 degrees) relative to the first and secondupper vertical side plate heights from the first and second uppervertical side plate second ends to the first and second upper verticalside plate first ends. Optionally, the rafter bracket is open oppositethe third upper vertical side plate and further wherein the third uppervertical side plate is adjacent to the first and second upper verticalside plate first ends. Optionally, the first and second upper verticalside plates each comprise a variable height, wherein the first uppervertical side plate tapers in decreasing height from the first uppervertical side plate first end to the first upper vertical side platesecond end and further wherein the second upper vertical side platetapers in decreasing height from the second upper vertical side platefirst end to the second upper vertical side plate second end.Optionally, the third upper vertical side plate top is located below thetops of the first and second upper vertical side plate along the entirelength of the first and second upper vertical side plates. Optionally,the least two upper vertical side plate fastener apertures adjacent tothe first upper vertical side plate first end are aligned in a firstvertical row generally parallel to the first upper vertical side plateheight, wherein the at least two upper vertical side plate fastenerapertures adjacent to the first upper vertical side plate second end arealigned in a second vertical row generally parallel to the first uppervertical side plate height, wherein the at least two upper vertical sideplate fastener apertures adjacent to the second upper vertical sideplate first end are aligned in a first vertical row generally parallelto the second upper vertical side plate height, and further wherein theat least two second upper vertical side plate fastener aperturesadjacent to the second upper vertical side plate second end are alignedin a second vertical row generally parallel to the first upper verticalside plate height. Optionally, the vertical post comprises a verticalpost top end located in the lower cavity, a vertical post bottom end, avertical post height extending from the vertical post top end to thevertical post bottom end and generally parallel to the first and secondlower vertical side plate heights and the first and second uppervertical side plate heights, wherein the rafter comprises a rafter firstend, a rafter second end, and a rafter length extending from the rafterfirst end to the rafter second end, and further wherein the rafterlength is angled relative to the vertical post height and the first andsecond upper vertical side plate heights at an angle less than 60degrees. Optionally, the first and second upper vertical side plates areoriented approximately 90 degrees relative to the first and second lowervertical side plates, and further wherein the third upper vertical sideplate is oriented approximately 90 degrees relative to the third andfourth lower vertical side plates. Optionally, the first and secondupper vertical side plates are substantially mirror images of each otherand further wherein the first and second lower vertical side plates aresubstantially mirror images of each other. Optionally, the third andfourth lower vertical side plates extend between the first lowervertical side plate and the second lower vertical side plate and thethird upper vertical side plate extends between the first upper verticalside plate and the second upper vertical side plate. Optionally, thethird and fourth lower vertical side plate heights are less than thefirst and second lower vertical side plate heights. Optionally, thefirst and second lower vertical side plate each comprise a variablewidth with a wider portion and a narrower portion and the third andfourth lower vertical side plates extend between the first and secondlower vertical side plate wider portions. Optionally, the third uppervertical side plate top is generally flat as it extends between thefirst and second upper vertical side plates. Optionally, the lowercavity is generally rectangular in shape. Optionally, the first andsecond lower vertical side plate tops are attached to the horizontalplate and further wherein the first, second, and third upper verticalside plate bottoms are attached to the horizontal plate. Optionally, thethird and fourth lower vertical side plate heights are less than thefirst and second lower vertical side plate heights and further whereinthe third upper vertical side plate height is no more than about ⅓ themedian height of the first and second upper vertical side plate.Optionally, the vertical post and the rafter are comprised of wood andthe rafter bracket is comprised of metal. Optionally, the vertical postis a wall stud of the building. Optionally, the rafter is alsopositioned on the horizontal plate. Optionally, the second distance isless than the first distance.

In still further embodiments, the present disclosure provides a rafterbracket configured to connect a vertical post of a building to a rafterof the building, the rafter bracket comprising: a first lower verticalside plate comprising a first lower vertical side plate top, a firstlower vertical side plate bottom, a first lower vertical side plateheight extending from the first lower vertical side plate top to thefirst lower vertical side plate bottom, a first lower vertical sideplate first end, a first lower vertical side plate second end oppositethe first end, and a first lower vertical side plate width extendingfrom the first lower vertical side plate first end to the first lowervertical side plate second end and generally perpendicular to the firstlower vertical side plate height; a second lower vertical side plateopposite the first lower vertical side plate and extending generallyparallel to the first lower vertical side plate, the second lowervertical side plate comprising a second lower vertical side plate top, asecond lower vertical side plate bottom, a second lower vertical sideplate height extending from the second lower vertical side plate top tothe second lower vertical side plate bottom and generally parallel tothe first lower vertical side plate height, a second lower vertical sideplate first end, a second lower vertical side plate second end oppositethe first end, and a second lower vertical side plate width extendingfrom the second lower vertical side plate first end to the second lowervertical side plate second end and generally perpendicular to the firstlower vertical side plate height; a third lower vertical side plateextending generally perpendicular to (and preferably extending between)the first and second lower vertical side plates and comprising a thirdlower vertical side plate top, a third lower vertical side plate bottom,a third lower vertical side plate height extending from the third lowervertical side plate top to the third lower vertical side plate bottomand generally parallel to the first and second lower vertical side plateheights, a third lower vertical side plate proximal end, a third lowervertical side plate distal end, and a third lower vertical side platelength extending from the third lower vertical side plate proximal endto the third lower vertical side plate distal end and generallyperpendicular to the first and second lower vertical side plate widths;a fourth lower vertical side plate opposite the third lower verticalside plate, extending generally parallel to the third lower verticalside plate and extending generally perpendicular to (and preferablyextending between) the first and second lower vertical side plates, thefourth lower vertical side plate comprising a fourth lower vertical sideplate top, a fourth lower vertical side plate bottom, a fourth lowervertical side plate height extending from the fourth lower vertical sideplate top to the fourth lower vertical side plate bottom and generallyparallel to the first, second and third lower vertical side plateheights, a fourth lower vertical side plate proximal end, a fourth lowervertical side plate distal end, and a fourth lower vertical side platelength extending from the fourth lower vertical side plate proximal endto the fourth lower vertical side plate distal end and generallyparallel to the third lower vertical side plate length; a horizontalplate connected to at least one (and preferably all of) the first,second, third and fourth lower vertical side plates (preferably the topsof each), the horizontal plate located above the first, second, thirdand fourth lower vertical side plate bottoms (and preferably extendingfrom the first lower vertical side plate to the second lower verticalside plate), the horizontal plate extending generally perpendicular tothe first, second, third, and fourth lower vertical side plate heights,the horizontal plate comprising a horizontal plate first end, ahorizontal plate second end, a horizontal plate width extending from thehorizontal plate first end to the horizontal plate second end andgenerally parallel to the first lower vertical side plate width andsecond lower vertical side plate width, a horizontal plate proximal end,a horizontal plate distal end, and a horizontal plate length extendingfrom the horizontal plate proximal end to the horizontal plate distalend and generally perpendicular to the horizontal plate width; a lowercavity defined by the first, second, third and fourth lower verticalside plates; a first upper vertical side plate comprising at least onefirst upper vertical side plate fastener aperture, the first uppervertical side plate having a first upper vertical side plate top locatedabove the first, second, third and fourth lower vertical side plate topsand above the horizontal plate, a first upper vertical side plate bottom(preferably attached to the horizontal plate), a first upper verticalside plate height extending from the first upper vertical side plate topto the first upper vertical side plate bottom and generally parallel tothe first and second lower vertical side plate heights, a first uppervertical side plate first end, a first upper vertical side plate secondend opposite the first end, and a first upper vertical side plate lengthextending from the first upper vertical side plate first end to thefirst upper vertical side plate second end and generally perpendicularto the first upper vertical side plate height; a second upper verticalside plate opposite the first upper vertical side plate and extendinggenerally parallel to the first upper vertical side plate, the secondupper vertical side plate comprising at least one second upper verticalside plate fastener aperture, the second upper vertical side platehaving a second upper vertical side plate top located above the first,second, third and fourth lower vertical side plate tops and above thehorizontal plate, a second upper vertical side plate bottom (preferablyattached to the horizontal plate), a second upper vertical side plateheight extending from the second upper vertical side plate top to thesecond upper vertical side plate bottom and generally parallel to thefirst and second lower vertical side plate heights, a second uppervertical side plate first end, a second upper vertical side plate secondend opposite the first end, and a second upper vertical side platelength extending from the second upper vertical side plate first end tothe second upper vertical side plate second end and generallyperpendicular to the first and second upper vertical side plate height;a third upper vertical side plate extending generally perpendicular to(and preferably extending from) the first and second upper vertical sideplates and comprising a third upper vertical side plate top (preferablylocated above the first, second, third and fourth lower vertical sideplate tops) located above the horizontal plate, a third upper verticalside plate bottom (preferably attached to the horizontal plate), a thirdupper vertical side plate height extending from the third upper verticalside plate top to the third upper vertical side bottom and generallyparallel to the first and second lower vertical side plate heights, athird upper vertical side plate first end, a third upper vertical sideplate second end opposite the first end, and a third upper vertical sideplate length extending from the third upper vertical side plate firstend to the third upper vertical side plate second end and generallyperpendicular to the first and second upper vertical side plate length;an upper cavity defined by the first upper vertical side plate, secondupper vertical side plate, third upper vertical side plate, andhorizontal plate; wherein the first lower vertical side plate and secondlower vertical side plate are separated a first distance, the firstdistance substantially constant along the first lower vertical sideplate and second lower vertical side plate widths and generally parallelto the horizontal plate length, wherein the first upper vertical sideplate and second upper vertical side plate are separated a seconddistance, the second distance substantially constant along the firstupper vertical side plate and second upper vertical side plate lengths,wherein a vertical post of a building is configured to be positionedbetween the first, second, third and fourth lower vertical side plate inthe lower cavity, wherein a rafter of the building is configured to bepositioned on the third upper vertical side plate top and between thefirst and second upper vertical side plates, wherein the first lowervertical side plate comprises a plurality of first lower vertical sideplate fastener apertures, wherein the second lower vertical side platecomprises a plurality of second lower vertical side plate fastenerapertures aligned with the first lower vertical side plate fastenerapertures, wherein the first upper vertical side plate comprises aplurality of first upper vertical side plate apertures, and furtherwherein the second upper vertical side plate comprises a plurality ofsecond upper vertical side apertures aligned with the first uppervertical side plate fastener apertures.

Optionally, the first upper vertical side plate comprises at least twoupper vertical side plate fastener apertures adjacent to the first uppervertical side plate first end, wherein the first upper vertical sideplate comprises at least two upper vertical side plate fastenerapertures adjacent to the first upper vertical side plate second end,wherein the second upper vertical side plate comprises at least twoupper vertical side plate fastener apertures adjacent to the secondupper vertical side plate first end, wherein the second upper verticalside plate comprises at least two second upper vertical side platefastener apertures adjacent to the second upper vertical side platesecond end, wherein the third upper vertical side plate is adjacent tothe first and second upper vertical side plate first ends, wherein atleast one first upper vertical side plate fastener aperture adjacent tothe first upper vertical side plate first end is above all of the firstupper vertical side plate fastener apertures adjacent to the first uppervertical side plate second end, wherein at least one second uppervertical side plate fastener aperture adjacent to the second uppervertical side plate first end is above all of the second upper verticalside plate fastener apertures adjacent to the second upper vertical sideplate second end, and further wherein the rafter bracket is configuredto allow a rafter to extend upwardly at an angle of less than 60 degreesrelative to the first and second upper plate heights from the first andsecond upper vertical side plate second ends to the first and secondupper vertical side plate first ends. Optionally, the rafter bracket isopen opposite the third upper vertical side plate. Optionally, the firstand second upper vertical side plate each comprise a variable height,wherein the first upper vertical side plate tapers in decreasing heightfrom the first upper vertical side plate first end to the first uppervertical side plate second end and further wherein the second uppervertical side plate tapers in decreasing height from the second uppervertical side plate first end to the second upper vertical side platesecond end.

In still further embodiments, the present disclosure provides a rafterbracket configured to connect a vertical post of a building to a rafterof the building. The rafter bracket may include a first lower verticalside plate comprising at least one first lower vertical side platefastener aperture, a first lower vertical side plate top, a first lowervertical side plate bottom, a first lower vertical side plate heightextending from the first lower vertical side plate top to the firstlower vertical side plate bottom, a first lower vertical side platefirst end, a first lower vertical side plate second end opposite thefirst end, and a first lower vertical side plate width extending fromthe first lower vertical side plate first end to the first lowervertical side plate second end and substantially perpendicular to thefirst lower vertical side plate height. The rafter bracket may alsoinclude a second lower vertical side plate opposite the first lowervertical side plate and extending substantially parallel to the firstlower vertical side plate, the second lower vertical side platecomprising at least one second lower vertical side plate fasteneraperture, a second lower vertical side plate top, a second lowervertical side plate bottom, a second lower vertical side plate heightextending from the second lower vertical side plate top to the secondlower vertical side plate bottom and substantially parallel to the firstlower vertical side plate height, a second lower vertical side platefirst end, a second lower vertical side plate second end opposite thefirst end, and a second lower vertical side plate width extending fromthe second lower vertical side plate first end to the second lowervertical side plate second end and substantially perpendicular to thefirst lower vertical side plate height. The rafter bracket may alsoinclude a horizontal plate connected to at least one of the first andsecond lower vertical side plates, the horizontal plate located abovethe first and second lower vertical side plate bottoms, the horizontalplate extending substantially perpendicular to the first and secondlower vertical side plate heights, the horizontal plate comprising ahorizontal plate first end, a horizontal plate second end, a horizontalplate width extending from the horizontal plate first end to thehorizontal plate second end and substantially parallel to the firstlower vertical side plate width and second lower vertical side platewidth, a horizontal plate proximal end, a horizontal plate distal end,and a horizontal plate length extending from the horizontal plateproximal end to the horizontal plate distal end and substantiallyperpendicular to the horizontal plate width. The rafter bracket may alsoinclude a lower cavity defined by the first and second lower verticalside plates. The rafter bracket may also include at least one upperbrace plate comprising a brace plate top above the first and secondlower vertical side plate tops and above the horizontal plate, a braceplate bottom extending from the horizontal plate, a brace plate heightextending from the brace plate top to the brace plate bottom andsubstantially parallel to the first and second lower vertical side plateheights, a brace plate first end, a brace plate second end, and a braceplate length extending from the brace plate first end to the brace platesecond end and generally perpendicular to the brace plate height. Therafter bracket may also include an upper plate resting on the braceplate top, the upper plate oriented at an angle greater than 1 degreesand less than 90 degrees relative to the horizontal plate, and the upperplate comprising a bottom surface facing the horizontal plate and a topsurface opposite the bottom surface. Optionally, the upper platecomprises at least one fastener aperture extending from the upper platetop surface to the upper plate bottom surface. Optionally, the firstlower vertical side plate and second lower vertical side plate areseparated a first distance, the first distance substantially constantalong the first lower vertical side plate and second lower vertical sideplate widths and substantially parallel to the horizontal plate length.Optionally, the vertical post of the building is positioned between thefirst and second vertical side plates in the lower cavity. Optionally,the rafter of the building is positioned on the upper plate top surface.Optionally, at least one upper fastener is positioned through an upperplate fastener aperture and into the rafter. Optionally, at least onelower fastener is positioned through a fastener aperture of the firstlower vertical side plate and into the vertical post.

Optionally, the at least one upper brace plate tapers in decreasingheight from the first end to the second end. Optionally, the at leastone upper brace plate is substantially triangular in shape. Optionally,the at least one lower fastener is positioned through a fasteneraperture of the first lower vertical side plate, through the verticalpost and then through a fastener aperture of the second lower verticalside plate. Optionally, the upper plate bottom surface is located abovethe horizontal plate. Optionally, the rafter bracket comprises twoidentically shaped and sized upper brace plates separated by a space andoriented substantially parallel to each other. Optionally, the upperplate is oriented at an angle of between about 5 degrees and about 60degrees relative to the horizontal plate. Optionally, the rafter bracketfurther comprises: a third lower vertical side plate extendingsubstantially perpendicular to the first and second lower vertical sideplates and comprising a third lower vertical side plate top, a thirdlower vertical side plate bottom, a third lower vertical side plateheight extending from the third lower vertical side plate top to thethird lower vertical side plate bottom and substantially parallel to thefirst and second lower vertical side plate heights, a third lowervertical side plate proximal end, a third lower vertical side platedistal end, and a third lower vertical side plate length extending fromthe third lower vertical side plate proximal end to the third lowervertical side plate distal end and substantially perpendicular to thefirst and second lower vertical side plate widths; and a fourth lowervertical side plate opposite the third lower vertical side plate,extending substantially parallel to the third lower vertical side plateand extending substantially perpendicular to the first and second lowervertical side plates, the fourth lower vertical side plate comprising afourth lower vertical side plate top, a fourth lower vertical side platebottom, a fourth lower vertical side plate height extending from thefourth lower vertical side plate top to the fourth lower vertical sideplate bottom and substantially parallel to the first, second and thirdlower vertical side plate heights, a fourth lower vertical side plateproximal end, a fourth lower vertical side plate distal end, and afourth lower vertical side plate length extending from the fourth lowervertical side plate proximal end to the fourth lower vertical side platedistal end and substantially parallel to the third lower vertical sideplate length. Optionally, the vertical post of the building ispositioned between the third and fourth vertical side plates in thelower cavity. Optionally, the at least one upper brace plate top islocated above the third and fourth lower vertical side plate tops.Optionally, the horizontal plate is connected to the third and fourthlower vertical side plates, wherein the horizontal plate located isabove the third and fourth lower vertical side plate bottoms, andfurther wherein the horizontal plate extends substantially perpendicularto the third and fourth lower vertical side plate heights. Optionally,the third and fourth lower vertical side plates each comprise at leastone fastener aperture, wherein at least one fastener aperture of thethird and fourth lower vertical side plates are aligned and located.Optionally, all fastener apertures of the first and second lowervertical side plates are vertically offset from the fastener aperturesof the third and fourth lower vertical side plates. Optionally, at leastone of the first, second, third and fourth lower vertical side platescomprise a plurality of lateral plates extending laterally away from therespective lower vertical side plate and lower cavity and defining alateral cavity, wherein a beam of the building is located in the lateralcavity, wherein at least one of the plurality of lateral platescomprises a fastener aperture, and further wherein a fastener ispositioned through the lateral plate fastener aperture and through thebeam. Optionally, the lateral cavity has an open top and the pluralityof lateral plates border the beam on two sides and a bottom of thelateral cavity. Optionally, the plurality of lateral plates comprisefirst and second side lateral plates, the first and second side lateralplates oriented substantially parallel to each other and definingopposite sides the lateral cavity and bordering the beam on two sides,each of the first and second side lateral plates having a heightsubstantially parallel to the first and second lower vertical side plateheights, and further wherein the respective first, second, third orfourth lower vertical side plate comprising the plurality of lateralplates border the beam on another side. Optionally, the plurality oflateral plates further comprise a bottom lateral plate bordering thebeam on a bottom of the lateral cavity. Optionally, the bottom lateralplate is substantially parallel to the horizontal plate. Optionally, theplurality of lateral plates are not directly attached to each other.Optionally, the rafter bracket further comprises a substantiallytriangular brace located below the bottom lateral plate and attached toboth the bottom lateral plate and the respective lower vertical sideplate comprising the plurality of lateral plates. Optionally, each ofthe plurality of lateral plates comprise a lateral plate fasteneraperture and further wherein fasteners are positioned through thelateral plate fastener apertures and through the beam. Optionally, aplurality of the first, second, third and fourth lower vertical sideplates each comprise a respective said plurality of lateral platesextending laterally away from the respective lower vertical side plateand lower cavity and creating a respective said lateral cavity, whereina respective said beam is located in each lateral cavity and furtherwherein, for each the first, second, third and fourth lower verticalside plate comprising the respective plurality of lateral plates, atleast one of the plurality of lateral plates comprises a fasteneraperture, and further wherein a fastener is positioned through at leastone lateral plate fastener aperture and through the respective beam.Optionally, the rafter bracket further includes a brace extendingbetween and attached to the respective lateral plate of one of thefirst, second, third and fourth lower vertical side plates and a lateralplate of another of the first, second, third and fourth lower verticalside plates. Optionally, the beam and the vertical post are locateddirectly below the rafter. Optionally, the beam and rafter are locatedin the same plane. Optionally, the vertical post comprises a verticalpost top end located in the lower cavity, a vertical post bottom end, avertical post height extending from the vertical post top end to thevertical post bottom end and substantially parallel to the first andsecond lower vertical side plate heights, wherein the rafter comprises arafter first end, a rafter second end, and a rafter length extendingfrom the rafter first end to the rafter second end, and further whereinthe rafter length is angled relative to the vertical post height and thefirst and second lower vertical side plate heights at an angle less than60 degrees, and further wherein the beam is substantially perpendicularto the vertical post. Optionally, the rafter extends upwardly at anacute angle relative to the horizontal plate from the brace plate firstend to the brace plate second end. Optionally, the first lower verticalside plate comprises a plurality of first lower vertical side platefastener apertures, wherein the second lower vertical side platecomprises a plurality of second lower vertical side plate fastenerapertures aligned with the first lower vertical side plate fastenerapertures. Optionally, the lower cavity is substantially rectangular inshape. Optionally, the vertical post is a wall stud of the building.

In still further embodiments, the present disclosure provides a rafterbracket configured to connect a vertical post of a building to a rafterof the building. The rafter bracket may include a first lower verticalside plate comprising a first lower vertical side plate top, a firstlower vertical side plate bottom, a first lower vertical side plateheight extending from the first lower vertical side plate top to thefirst lower vertical side plate bottom, a first lower vertical sideplate first end, a first lower vertical side plate second end oppositethe first end, and a first lower vertical side plate width extendingfrom the first lower vertical side plate first end to the first lowervertical side plate second end and substantially perpendicular to thefirst lower vertical side plate height. The rafter bracket may alsoinclude a second lower vertical side plate opposite the first lowervertical side plate and extending substantially parallel to the firstlower vertical side plate, the second lower vertical side platecomprising a second lower vertical side plate top, a second lowervertical side plate bottom, a second lower vertical side plate heightextending from the second lower vertical side plate top to the secondlower vertical side plate bottom and substantially parallel to the firstlower vertical side plate height, a second lower vertical side platefirst end, a second lower vertical side plate second end opposite thefirst end, and a second lower vertical side plate width extending fromthe second lower vertical side plate first end to the second lowervertical side plate second end and substantially perpendicular to thefirst lower vertical side plate height. The rafter bracket may alsoinclude a third lower vertical side plate extending substantiallyperpendicular to the first and second lower vertical side plates andcomprising a third lower vertical side plate top, a third lower verticalside plate bottom, a third lower vertical side plate height extendingfrom the third lower vertical side plate top to the third lower verticalside plate bottom and substantially parallel to the first and secondlower vertical side plate heights, a third lower vertical side plateproximal end, a third lower vertical side plate distal end, and a thirdlower vertical side plate length extending from the third lower verticalside plate proximal end to the third lower vertical side plate distalend and substantially perpendicular to the first and second lowervertical side plate widths. The rafter bracket may also include a fourthlower vertical side plate opposite the third lower vertical side plate,extending substantially parallel to the third lower vertical side plateand extending substantially perpendicular to the first and second lowervertical side plates, the fourth lower vertical side plate comprising afourth lower vertical side plate top, a fourth lower vertical side platebottom, a fourth lower vertical side plate height extending from thefourth lower vertical side plate top to the fourth lower vertical sideplate bottom and substantially parallel to the first, second and thirdlower vertical side plate heights, a fourth lower vertical side plateproximal end, a fourth lower vertical side plate distal end, and afourth lower vertical side plate length extending from the fourth lowervertical side plate proximal end to the fourth lower vertical side platedistal end and substantially parallel to the third lower vertical sideplate length. The rafter bracket may also include a horizontal plateconnected to at least one of the first, second, third and fourth lowervertical side plates, the horizontal plate located above the first,second, third and fourth lower vertical side plate bottoms, thehorizontal plate extending substantially perpendicular to the first,second, third, and fourth lower vertical side plate heights, thehorizontal plate comprising a horizontal plate first end, a horizontalplate second end, a horizontal plate width extending from the horizontalplate first end to the horizontal plate second end and substantiallyparallel to the first lower vertical side plate width and second lowervertical side plate width, a horizontal plate proximal end, a horizontalplate distal end, and a horizontal plate length extending from thehorizontal plate proximal end to the horizontal plate distal end andsubstantially perpendicular to the horizontal plate width. The rafterbracket may also include a lower cavity defined by the first, second,third and fourth lower vertical side plates. The rafter bracket may alsoinclude at least one upper brace plate comprising a brace plate topabove the first, second, third and fourth lower vertical side plate topsand above the horizontal plate, a brace plate bottom extending from thehorizontal plate, a brace plate height extending from the brace platetop to the brace plate bottom and substantially parallel to the firstand second lower vertical side plate heights, a brace plate first end, abrace plate second end, and a brace plate length extending from thebrace plate first end to the brace plate second end and generallyperpendicular to the brace plate height. The rafter bracket may alsoinclude an upper plate resting on the brace plate top, the upper plateoriented at an angle of greater than 1 degrees and less than 90 degreesrelative to the horizontal plate, the upper plate comprising a bottomsurface facing the horizontal plate and a top surface opposite thebottom surface. Optionally, the upper plate comprises at least onefastener aperture extending from the upper plate top surface to theupper plate bottom surface. Optionally, the first lower vertical sideplate and second lower vertical side plate are separated a firstdistance, the first distance substantially constant along the firstlower vertical side plate and second lower vertical side plate widthsand substantially parallel to the horizontal plate length. Optionally,the vertical post of the building is configured to be positioned betweenthe first, second, third and fourth lower vertical side plate in thelower cavity. Optionally, the rafter of the building is configured to bepositioned on the upper plate top surface. Optionally, the at least oneupper brace plate tapers in decreasing height from the first end to thesecond end and is substantially triangular in shape. Optionally, therafter bracket comprises two identically shaped and sized upper braceplates separated by a space and oriented substantially parallel to eachother. Optionally, at least one of the first, second, third and fourthlower vertical side plates comprise a plurality of lateral platesextending laterally away from the respective lower vertical side plateand lower cavity and forming a lateral cavity, wherein a beam of thebuilding is configured to be positioned in the lateral cavity, whereinat least two of the plurality of lateral plates comprises at least onealigned fastener aperture, wherein the first lower vertical side platecomprises a plurality of first lower vertical side plate fastenerapertures, wherein the second lower vertical side plate comprises aplurality of second lower vertical side plate fastener apertures alignedwith the first lower vertical side plate fastener apertures. Optionally,the upper plate bottom surface is located above the horizontal plate.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side perspective view of a building utilizing a rafterbracket of one embodiment of the present invention.

FIG. 2 is a close-up side perspective view of the circled area labelled2 in FIG. 1 to better show the rafter bracket.

FIG. 3 is a side perspective view of a rafter bracket of anotherembodiment of the present invention.

FIG. 4 is a bottom perspective view of the rafter bracket of FIG. 1; inFIG. 4, the rafter bracket has been rotated as compared to FIG. 3.

FIG. 5 is a side elevation view of the rafter bracket of FIG. 1; in FIG.5, the rafter bracket has been rotated as compared to FIG. 3.

FIG. 6 is a top plan view of the rafter bracket of FIG. 1; in FIG. 6,the rafter bracket is in the same orientation as FIG. 5.

FIG. 7 is a bottom plan view of the rafter bracket of FIG. 1; in FIG. 7,the rafter bracket is in the same orientation as FIG. 5.

FIG. 8 is a side elevation view of the rafter bracket of FIG. 1; in FIG.8, the rafter bracket has been rotated 90 degrees as compared to FIG. 5.

FIG. 9 is a side cross-sectional view of the rafter bracket of FIG. 1;in FIG. 9, the rafter bracket is in the same orientation as FIG. 5.

FIG. 10 is a side cross-sectional view of a rafter bracket of anotherembodiment of the present invention; in FIG. 10, the third uppervertical side plate is lower as compared to FIG. 9, which allows therafter to be placed at a more acute angle.

FIG. 11 is a side perspective view of a building utilizing the rafterbracket of FIG. 10.

FIG. 12 is a close-up side perspective view of the circled area labelled12 in FIG. 11 to better show the rafter bracket.

FIG. 13 is a bottom perspective view of the rafter bracket of FIG. 10.

FIG. 14 is a side perspective view of the rafter bracket of FIG. 10.

FIG. 15 is a top plan view of the rafter bracket of FIG. 10.

FIG. 16 is a side elevation view of the rafter bracket of FIG. 10.

FIG. 17 is another side elevation view of the rafter bracket of FIG. 10.

FIG. 18 is another side elevation view of the rafter bracket of FIG. 10.

FIG. 19 is a bottom plan view of the rafter bracket of FIG. 10.

FIG. 20 is a side cross-sectional view of the rafter bracket of FIG. 1.

FIG. 21 is a side cross-sectional view of a rafter bracket of anotherembodiment of the present invention; in FIG. 21, the third uppervertical side plate is lower as compared to FIG. 20, which allows therafter to be placed at a more acute angle.

FIG. 22 is a side perspective view of a rafter bracket of anotherembodiment of the present invention.

FIG. 23 is a side perspective view of a rafter bracket of anotherembodiment of the present invention.

FIG. 24 is a side elevation view of the rafter bracket of FIG. 22 in useconnecting a rafter to a vertical post and two beams.

FIG. 25 is another side elevation view of the rafter bracket of FIG. 22in use connecting a rafter to a vertical post and two beams.

FIG. 26 is a side elevation view of a rafter bracket of anotherembodiment of the present invention in use connecting a rafter to avertical post and beam.

FIG. 27 is a side elevation view of the rafter bracket of FIG. 26 in useconnecting a rafter to a vertical post and beam and with fastenerslocated in the fastener holes.

FIG. 28 is a side perspective view of a building utilizing a rafterbracket of another embodiment of the present invention.

FIG. 29 is a close-up side perspective view of the circled area labelled29 in FIG. 28 to better show the rafter bracket.

FIG. 30 is a side perspective view of a building utilizing a rafterbracket of another embodiment of the present invention.

FIG. 31 is a side perspective view of the building and rafter bracket ofFIG. 30.

FIG. 32 is a side perspective view of the building and rafter bracket ofFIG. 30.

FIG. 33 is a side perspective view of the rafter bracket of FIG. 30.

FIG. 34 is a bottom perspective view of the rafter bracket of FIG. 30;in FIG. 34, the rafter bracket has been rotated as compared to FIG. 33.

FIG. 35 is a side perspective view of the rafter bracket of FIG. 30; inFIG. 35, the rafter bracket has been rotated as compared to FIG. 34

FIG. 36 is a side perspective view of the rafter bracket of FIG. 30; inFIG. 36, the rafter bracket has been rotated as compared to FIG. 35.

FIG. 37 is a side elevation view of the rafter bracket of FIG. 30.

FIG. 38 is a side elevation view of a rafter bracket of anotherembodiment of the present invention.

FIG. 39 is a side elevation view of a rafter bracket of anotherembodiment of the present invention.

DETAILED DESCRIPTION

With reference to FIGS. 1-10, the present invention provides a rafterbracket generally designated by the numeral 10. In the drawings, not allreference numbers are included in each drawing for the sake of clarity.It will be understood that the above drawings are CAD drawings drawn toscale.

As shown in FIGS. 1-10, the rafter bracket 10 may be configured toconnect a vertical post 12 of a building 14 to a rafter 16 of thebuilding 14 and may include a first lower vertical side plate 20comprising at least one first lower vertical side plate fasteneraperture/hole 22, a first lower vertical side plate top 24, a firstlower vertical side plate bottom 26, a first lower vertical side plateheight 28 extending from the first lower vertical side plate top 24 tothe first lower vertical side plate bottom 26, a first lower verticalside plate first end 30, a first lower vertical side plate second end 32opposite the first end 30, and a first lower vertical side plate width34 extending from the first lower vertical side plate first end 30 tothe first lower vertical side plate second end 32 and generallyperpendicular to the first lower vertical side plate height 28. As bestseen in FIGS. 2-10, the rafter bracket 10 may also include a secondlower vertical side plate 36 opposite the first lower vertical sideplate 20 and extending generally parallel to the first lower verticalside plate 20, the second lower vertical side plate 36 comprising atleast one second lower vertical side plate fastener aperture/hole 38, asecond lower vertical side plate top 40, a second lower vertical sideplate bottom 42, a second lower vertical side plate height 44 extendingfrom the second lower vertical side plate top 40 to the second lowervertical side plate bottom 42 and generally parallel to the first lowervertical side plate height 28, a second lower vertical side plate firstend 46, a second lower vertical side plate second end 48 opposite thefirst end 46, and a second lower vertical side plate width 50 extendingfrom the second lower vertical side plate first end 46 to the secondlower vertical side plate second end 48 and generally perpendicular tothe first and second lower vertical side plate heights 28, 44. As bestseen in FIGS. 2-10, the rafter bracket 10 may optionally further includea third lower vertical side plate 66 extending generally perpendicularto (and preferably extending between) the first and second lowervertical side plates 20, 36 and comprising a third lower vertical sideplate top 68, a third lower vertical side plate bottom 70, a third lowervertical side plate height 71 extending from the third lower verticalside plate top 68 to the third lower vertical side plate bottom 70 andgenerally parallel to the first and second lower vertical side plateheights 28, 44, a third lower vertical side plate proximal end 72, athird lower vertical side plate distal end 74, and a third lowervertical side plate length 76 that extends from the third lower verticalside plate proximal end 72 to the third lower vertical side plate distalend 74 and is generally perpendicular to the first and second lowervertical side plate widths 34, 50. As best seen in FIGS. 2-10, therafter bracket 10 may further include a fourth lower vertical side plate78 opposite the third lower vertical side plate 66, extending generallyparallel to the third lower vertical side plate 66 and extendinggenerally perpendicular to (and preferably extending between) the firstand second lower vertical side plates 20, 36, the fourth lower verticalside plate 78 comprising a fourth lower vertical side plate top 80, afourth lower vertical side plate bottom 82, a fourth lower vertical sideplate height 83 extending from the fourth lower vertical side plate top80 to the fourth lower vertical side plate bottom 82 and generallyparallel to the first, second and third 71 lower vertical side plateheights 28, 44, 71, a fourth lower vertical side plate proximal end 84,a fourth lower vertical side plate distal end 86, and a fourth lowervertical side plate length 88 extending from the fourth lower verticalside plate proximal end 84 to the fourth lower vertical side platedistal end 86 and generally parallel to the third lower vertical sideplate length 76. As best seen in FIGS. 2-10, the rafter bracket 10 mayfurther include a horizontal plate 52 connected to the first, second,third and fourth lower vertical side plate 20, 36, 66, 78 (preferablythe tops 24, 40, 68 and 80 of each). As best seen in FIGS. 2-10, thehorizontal plate 52 may be located above the first, second, third andfourth lower vertical side plate bottoms 26, 42, 70, 82 (and preferablyextends from the first lower vertical side plate 20 to the second lowervertical side plate 36 and from the third lower vertical side plate 66to the fourth lower vertical side plate 78). As best seen in FIGS. 2-10,the horizontal plate 52 may extend generally perpendicular to the first,second, third, and fourth 83 lower vertical side plate heights 28, 44,71, 83. As best seen in FIGS. 2-10, the horizontal plate 52 may begenerally rectangular in shape and may include a horizontal plate firstend 54, a horizontal plate second end 56, a horizontal plate width 58extending from the horizontal plate first end 54 to the horizontal platesecond end 56 and generally parallel to the first lower vertical sideplate width 34 and second lower vertical side plate width 50, ahorizontal plate proximal end 60, a horizontal plate distal end 62, anda horizontal plate length 64 extending from the horizontal plateproximal end 60 to the horizontal plate distal end 62 and generallyperpendicular to the horizontal plate width 58 (and generally parallelto the third and fourth lower vertical side plate lengths 76, 88). Asbest seen in FIGS. 2-10, the rafter bracket 10 may also include a lowercavity 90 defined by the first, second, third and fourth lower verticalside plates 20, 36, 66, 78 configured to receive the top end 154 of avertical post 12 (e.g., wall stud 12) of the building 14. In otherwords, the top end 154 of a generally rectangular vertical post 12 maybe surrounded on all four sides by the first, second, third and fourthlower vertical side plates 20, 36, 66, 78, as best seen in FIG. 2. Asbest seen in FIGS. 2-10, the rafter bracket 10 may also include a firstupper vertical side plate 92 comprising at least one first uppervertical side plate fastener aperture/hole 94, the first upper verticalside plate 92 having a first upper vertical side plate top 96 locatedabove the first, second, third and fourth lower vertical side plate tops24, 40, 68, 80 and above the horizontal plate 52, a first upper verticalside plate bottom 98 (preferably attached to the horizontal plate 52 andalso above the first, second, third and fourth lower vertical side platetops 24, 40, 68, 80), a first upper vertical side plate height 100extending from the first upper vertical side plate top 96 to the firstupper vertical side plate bottom 98 and generally parallel to the firstand second lower vertical side plate heights 28, 44, a first uppervertical side plate first end 102, a first upper vertical side platesecond end 104 opposite the first upper vertical side plate first end102, and a first upper vertical side plate length 106 extending from thefirst upper vertical side plate first end 102 to the first uppervertical side plate second end 104 and generally perpendicular to thefirst upper vertical side plate height 100. As best seen in FIGS. 2-10,the rafter bracket 10 may also include a second upper vertical sideplate 108 opposite the first upper vertical side plate 92 and extendinggenerally parallel to the first upper vertical side plate 92, the secondupper vertical side plate 108 comprising at least one second uppervertical side plate fastener aperture/hole 110, the second uppervertical side plate 108 having a second upper vertical side plate top112 located above the first, second, third and fourth lower verticalside plate tops 24, 40, 68, 80 and above the horizontal plate 52, asecond upper vertical side plate bottom 114 (preferably attached to thehorizontal plate 52 and above the first, second, third and fourth lowervertical side plate tops 24, 40, 68, 80), a second upper vertical sideplate height 116 extending from the second upper vertical side plate top112 to the second upper vertical side plate bottom 114 and generallyparallel to the first and second lower vertical side plate heights 28,44, a second upper vertical side plate first end 118, a second uppervertical side plate second end 120 opposite the second upper verticalside plate first end 118, and a second upper vertical side plate length122 extending from the second upper vertical side plate first end 118 tothe second upper vertical side plate second end 120 and generallyperpendicular to the first and second upper vertical side plate heights100, 116 (and generally parallel to the first upper vertical side platelength 106). In some embodiments, the first and second upper verticalside plate bottoms 98, 114 extend below the top of the horizontal plate52 as shown in FIG. 2 to provide more surface area for welding.

As best seen in FIGS. 2-10, the rafter bracket 10 may also optionallyinclude a third upper vertical side plate 124 extending generallyperpendicular to (and preferably extending between) the first and secondupper vertical side plates 92, 108 and comprising a third upper verticalside plate top 126 (preferably located above the first, second, thirdand fourth lower vertical side plate tops 24, 40, 68, and 80) locatedabove the horizontal plate 52 and below the first and second uppervertical side plate tops 96, 112 (preferably the tops 96 and 112 alongthe entire lengths 106 and 122 if the first and second upper verticalside plate tops 96, 112 are tapered), a third upper vertical side platebottom 128 (preferably attached to the horizontal plate 52), a thirdupper vertical side plate height 135 extending from the third uppervertical side plate top 126 to the third upper vertical side bottom 128and generally parallel to the first and second lower vertical side plateheights 28, 44, a third upper vertical side plate first end 130, a thirdupper vertical side plate second end 132 opposite the first end 130, anda third upper vertical side plate length 134 extending from the thirdupper vertical side plate first end 130 to the third upper vertical sideplate second end 132 and generally perpendicular to the first and secondupper vertical side plate lengths 106 and 122. In other words, as bestseen in FIGS. 2-10, the third upper vertical side plate top 126 ispreferably located below the tops 96, 112 of the first and second uppervertical side plate 92, 108 along the entire length 106, 122 of thefirst and second upper vertical side plates 92, 108. As best seen inFIGS. 2-10, the rafter bracket 10 may also include an upper cavity 136defined by the first upper vertical side plate 92, second upper verticalside plate 108, third upper vertical side plate 124, and horizontalplate 52.

Optionally, purlins 11 extend between the rafters 16 and run the lengthof the building 10.

Preferably the vertical post 12 is located directly below the rafter 16as shown in FIG. 2.

The first, second, and third upper vertical side plates 92, 108, 124,the horizontal plate 52 and the first, second, third and fourth lowervertical side plates 20, 36, 66, 78 may be discrete metal plates thatare welded together. Alternatively, two or more of the first, second,and third upper vertical side plates 92, 108, 124, the horizontal plate52 and the first, second, third and fourth lower vertical side plates20, 36, 66, 78 may be integrally attached to each other, in the case of,for example, a rafter bracket 10 that is plastic and made by injectionmolding. The plates 20, 36, 66, 78, 92, 108, 124 and 52, especially thesurfaces of the horizontal plate 52 and the first, second, third andfourth lower vertical side plates 20, 36, 66, 78 that face the verticalpost 16 and the surfaces of the first and second upper vertical sideplate 92 and 108 that face the rafter 16, are preferably flat so thatthey can rest against the vertical post 12 and rafter 16, which may bemade out of wood.

Optionally, as labelled in FIG. 4, the first lower vertical side plate20 and second lower vertical side plate 36 are separated a firstdistance 138. The first distance 138 may be substantially constant alongthe first lower vertical side plate 20 and second lower vertical sideplate 36 widths 34, 50 and the first distance 138 may be generallyparallel to the horizontal plate length 64. Optionally, the first uppervertical side plate 92 and second upper vertical side plate 108 areseparated a second distance 140, as labelled in FIG. 8. The seconddistance 140 may be substantially constant along the first uppervertical side plate 92 and second upper vertical side plate 108 lengths106, 122 and the second distance 140 may be generally parallel to thehorizontal plate width 58. In some but not all embodiments, the seconddistance 140 is less than the first distance 138. Optionally, as bestseen in FIGS. 1 and 2, a vertical post 12 of a building 14 is positionedbetween the first, second, third and fourth lower vertical side plate20, 36, 66, 78 in the lower cavity 90 and a rafter 16 of the building 14is positioned on the third upper vertical side plate top 126 and betweenthe first and second upper vertical side plates 92, 108. Optionally, asbest seen in FIG. 2, at least one upper fastener 150 (such as a bolt,screw or lag) is positioned through a fastener aperture/hole 94 of thefirst upper vertical side plate 92, through the rafter 16 and thenthrough the second upper vertical side plate 108, and at least one lowerfastener 150 (such as a bolt, lag or screw) is positioned through afastener aperture/hole 22 of the first lower vertical side plate 20,through the vertical post 12 and then through the second lower verticalside plate 36. Optionally, as best seen in FIGS. 2-10, the first lowervertical side plate 20 comprises a plurality of first lower verticalside plate fastener apertures/holes 22, the second lower vertical sideplate 36 comprises a plurality of second lower vertical side platefastener apertures/holes 38 aligned with the first lower vertical sideplate fastener apertures/holes 22, the first upper vertical side plate92 comprises a plurality of first upper vertical side plateapertures/holes 94, and the second upper vertical side plate comprises aplurality of second upper vertical side plate apertures/holes 110aligned with the first upper vertical side plate fastenerapertures/holes 94, and, as shown in FIG. 2, each fastener aperture/hole22, 38, 94, 110 comprises a fastener 150. Optionally, as best seen inFIGS. 2-10, the first upper vertical side plate 92 comprises at leasttwo upper vertical side plate fastener apertures/holes 94 adjacent tothe first upper vertical side plate first end 102, the first uppervertical side plate 92 comprises at least two upper vertical side platefastener apertures/holes 94 adjacent to the first upper vertical sideplate second end 104, the second upper vertical side plate 108 comprisesat least two upper vertical side plate fastener apertures/holes 110adjacent to the second upper vertical side plate first end 118, thesecond upper vertical side plate 108 comprises at least two second uppervertical side plate fastener apertures/holes 110 adjacent to the secondupper vertical side plate second end 120, the third upper vertical sideplate 124 is adjacent to the first and second upper vertical side platefirst ends 102, 118, at least one first upper vertical side platefastener aperture/hole 94 adjacent to the first upper vertical sideplate first end 102 is above all of the first upper vertical side platefastener apertures/holes 94 adjacent to the first upper vertical sideplate second end 105, at least one second upper vertical side platefastener aperture/hole 110 is above all of the second upper verticalside plate fastener apertures/holes 110 adjacent to the second uppervertical side plate second end 118, and as best seen in FIG. 2, therafter 16 extends upwardly at an acute angle 142 (preferably of lessthan 60, more preferably less than 45 degrees) relative to the first andsecond upper vertical side plate heights 100, 116 from the first andsecond upper vertical side plate second ends 104, 120 to the first andsecond upper vertical side plate first ends 102, 118. Optionally, asbest seen in FIGS. 2-10, the rafter bracket 10 is open opposite thethird upper vertical side plate 124 and the third upper vertical sideplate 1248 is adjacent to the first and second upper vertical side platefirst ends 102, 118. Optionally, as best seen in FIGS. 2-10, the firstand second upper vertical side plates 92, 108 each comprise a variableheight 100, 116, the first upper vertical side plate 92 tapers indecreasing height from the first upper vertical side plate first end 102to the first upper vertical side plate second end 104 and the secondupper vertical side plate 108 tapers in decreasing height from thesecond upper vertical side plate first end 118 to the second uppervertical side plate second end 120. Optionally, as shown in FIGS. 2-10,the at least two upper vertical side plate fastener apertures/holes 94,110 adjacent to the first upper vertical side plate first end 102 arealigned in a first vertical row generally parallel to the first uppervertical side plate height 100, the at least two upper vertical sideplate fastener apertures/holes 94, 110 adjacent to the first uppervertical side plate second end 104, are aligned in a second vertical rowgenerally parallel to the first upper vertical side plate height 100,the at least two upper vertical side plate fastener apertures/holes 94,110 adjacent to the second upper vertical side plate first end 118 arealigned in a first vertical row generally parallel to the second uppervertical side plate height 116, and the at least two second uppervertical side plate fastener apertures/holes 94, 110 adjacent to thesecond upper vertical side plate second end 120 are aligned in a firstvertical row generally parallel to the first upper vertical side plateheight 100.

Optionally, the vertical post 12, which may be a wall stud, comprises avertical post 12 top end 154 located in the lower cavity 90, a verticalpost bottom end 158, a vertical post height 152 extending from thevertical post top end 154 to the vertical post bottom end 158 andgenerally parallel to the first and second lower vertical side plateheights 28, 44 and the first and second upper vertical side plateheights 100, 116, wherein the rafter 16 comprises a rafter first end144, a rafter second end 146, and a rafter length 148 extending from therafter first end 144 to the rafter second end 146, and further whereinthe rafter length 148 is angled relative to the vertical post height 152and the first and second upper vertical side plate heights 28, 44 at anangle 142 less than 60 degrees.

Optionally, in some embodiments, as best seen in FIGS. 2-10, the firstand second upper vertical side plates 92, 108 are oriented approximately90 degrees relative to the first and second lower vertical side plates20, 36, and the third upper vertical side plate 124 is orientedapproximately 90 degrees relative to the third and fourth lower verticalside plates 66, 78. In other words, as shown in FIGS. 2-10, the firstdistance 138 in some embodiments is generally perpendicular to thesecond distance 140, and the first and second upper vertical side platelengths 106, 122 are generally perpendicular to the first and secondlower vertical side plate widths 34, 50.

Optionally, as best seen in FIGS. 2-10, the first and second uppervertical side plates 90, 108 are substantially mirror images of eachother and further wherein the first and second lower vertical sideplates 20, 36 are substantially mirror images of each other. In otherwords, the first and second upper vertical side plates 90, 108 may besubstantially the same size and shape and may have the same fasteneraperture/hole 94, 110 patterns and the first and second lower verticalside plates 20, 36 may be substantially the same size and shape and mayhave the same fastener aperture/hole 22, 38 patterns.

Optionally, as best seen in FIGS. 2-10, the third and fourth lowervertical side plates 66, 78 extend between the first lower vertical sideplate 20 and the second lower vertical side plate 36, and the thirdupper vertical side plate 124 extends between the first upper verticalside plate 92 and the second upper vertical side plate 102.

Optionally, as best seen in FIGS. 2-10, the third 66 and fourth 78 lowervertical side plate heights 71, 83 are less than the first and secondlower vertical side plate heights 28, 44.

Optionally, as best seen in FIGS. 2-10, the first and second lowervertical side plates 20, 36 each comprise a variable width 34, 50 with awider portion and a narrower portion and the third and fourth lowervertical side plates 66, 78 extend between the first and second lowervertical side plate 20, 36 wider portions.

Optionally, as best seen in FIGS. 2-10, the third upper vertical sideplate top 126 is generally flat as it extends between the first andsecond upper vertical side plates 92, 108.

Optionally, as best seen in FIGS. 2-10, the lower cavity 90 is generallyrectangular in shape.

Optionally, as best seen in FIGS. 2-10, the first and second lowervertical side plate tops 24, 40 are attached to the horizontal plate 52and further wherein the first, second, and third upper vertical sideplate bottoms 98, 114, 128 are attached to the horizontal plate 52.Optionally, as best seen in FIGS. 2-10, the third and fourth lowervertical side plate heights 71, 83 are less than the first and secondlower vertical side plate heights 28, 44 (e.g., the third and fourthlower vertical side plate heights 71, 83 may be ⅓ or less of the firstand second lower vertical side plate heights 28, 44) and the third uppervertical side plate height 135 is no more than about ⅓ the median heightof the first and second upper vertical side plate 92, 108. Thus, as bestseen in FIGS. 2-10, the third and fourth lower vertical side plate 66,78 may be a short ledge that extends below the horizontal plate 52 andthe third upper vertical side plate 124 may be a short ledge thatextends above the horizontal plate 52.

Optionally, as best seen in FIG. 2, the rafter 16 is also positioned onthe horizontal plate 52.

The Embodiments of FIGS. 11-29

FIGS. 11-29 show an alternate version of the rafter bracket 10 of FIGS.1-10. The primary difference between the rafter bracket 10 of FIGS. 1-10and the rafter bracket 10 of FIGS. 11-29 is that the rafter bracket ofFIGS. 11-29 includes lateral plates (namely, side lateral plates 162 andbottom lateral plates 166) that are attached to one or more of thefirst, second, third and fourth lower vertical side plates 20, 36, 66,and 78 and extend away from the lower cavity 90 and define a lateralcavity 164 in which a beam 172 is positioned. In some embodiments, allof the first, second, third and fourth lower vertical side plates 20,36, 66, and 78 include side lateral plates 162 and bottom lateral plates166. In other embodiments, not all of the first, second, third andfourth lower vertical side plates 20, 36, 66, and 78 include sidelateral plates 162 and bottom lateral plates 166. Preferably at leastthe second, third and/or fourth lower vertical side plates 36, 66, and78 include side lateral plates 162 and bottom lateral plates 166. Again,the word “attached” embraces welding as well as parts that areintegrally attached. The side lateral plates 162 may be supported bybraces 168, which may support adjacent side lateral plates 162 as bestseen in FIGS. 13 and 22 and may include one or more aligned fastenerapertures 170 for receiving a fastener 150. The bottom lateral plates166 may be supported by braces 168 which may be generally triangular inshape and located below the respective bottom lateral plate 166 and maybe attached to the bottom of the bottom lateral plate 166 and therespective first, second, third and fourth lower vertical side plates20, 36, 66, and 78, as best seen in FIGS. 13, and 16-21, and the bottomlateral plates 166 may include fastener apertures 174 for receiving afastener 150. The bracket 10 of FIGS. 11-29 may include one or morefeatures of the bracket 10 of FIGS. 1-10. The side lateral plates 162and bottom lateral plates 166 preferably contact, and more preferablyare flush against, the beam 172 due to the use of the fasteners 150,however other embodiments are possible.

Optionally, the lateral cavity 164 has an open top, as best seen inFIGS. 13-14 and 22-23, and the plurality of lateral plates 162 and 166border the beam 172 on two sides and the bottom.

Optionally, as best seen in FIGS. 13-14 and 22-23, the plurality oflateral plates comprise first and second side lateral plates 162, thefirst and second side lateral plates 162 oriented generally parallel toeach other and defining opposite sides of the lateral cavity 164 andbordering the beam 172 on two sides, each of the first and second sidelateral plates 162 having a height generally parallel to the first andsecond upper vertical side plate heights 100 and 116. Optionally, therespective first, second, third or fourth lower vertical side platecomprising the plurality of lateral plates 20, 36, 66, and 78 border thebeam 172 on a third side, as best seen in FIGS. 13, 14, 22 and 23.

Optionally, the bottom lateral plate(s) 166 are generally parallel tothe horizontal plate 52, as best seen in FIGS. 20-21.

Optionally, the plurality of lateral plates 162 and 166 are not directlyattached to each other.

Optionally, each of the plurality of lateral plates 162 and 166 comprisea lateral plate fastener aperture 170 and 174 and fasteners 150 arepositioned through the lateral plate fastener apertures 170 and 174 andthrough the beam(s) 172.

Optionally, a plurality of the first, second, third and fourth lowervertical side plates 20, 36, 66, and 78 each comprise a plurality oflateral plates 162 and 166 extending laterally away from the respectivelower vertical side plate 20, 36, 66, and 78 and lower cavity 90 andcreating a lateral cavity 164, wherein a beam 172 is located in eachlateral cavity 164 and further wherein, for each the first, second,third and fourth lower vertical side plate 20, 36, 66, and 78 comprisinga plurality of lateral plates 162 and 166, at least one of the pluralityof lateral plates 162 and 166 comprises a fastener aperture 170 and 174,and a fastener 150 is positioned through at least one lateral platefastener aperture 170 and 174 and through a beam 172.

Optionally, the rafter bracket 10 further includes a brace 168 extendingbetween and attached to a side lateral plate 162 of one of the first,second, third and fourth lower vertical side plates 20, 36, 66, and 78and a side lateral plate 162 of another of the first, second, third andfourth lower vertical side plates 20, 36, 66, and 78, as best seen inFIGS. 13, 15, 19 and 22 for example. The brace 168 may be generallytriangular in shape, as best seen FIGS. 13 and 22 for example.

Optionally, the third upper vertical side plate 124 is adjacent to thefirst and second upper vertical side plate first ends 102 and 118, andthe rafter 16 extends upwardly at an acute angle relative to the firstand second upper vertical side plate heights 100 and 116 from the firstand second upper vertical side plate second ends 104 and 120 to thefirst and second upper vertical side plate first ends 102 and 118.

Optionally, one of the beams 172 and the vertical post 12 are locateddirectly below the rafter 16, as best seen in FIG. 12.

Optionally, the rafter bracket 10 is open opposite the third uppervertical side plate 124 and one of the lateral cavities 164 is locatedbelow and adjacent to the third upper vertical side plate 124, as bestseen in FIG. 23 for example.

Optionally, one of the beams 172 and the rafter 16 are located in thesame plane, as shown in FIGS. 12, and 24-27 and 29.

Optionally, the vertical post 12 comprises a vertical post top end 154located in the lower cavity 90, a vertical post bottom end 158, avertical post height 152 extending from the vertical post top end 154 tothe vertical post bottom end 158 and generally parallel to the first andsecond lower vertical side plate heights 28 and 44 and the first andsecond upper vertical side plate heights 100 and 116, the rafter 16comprises a rafter first end 144, a rafter second end 146, and a rafterlength 148 extending from the rafter first end 144 to the rafter secondend 146, and the rafter length 148 is angled relative to the verticalpost height 152 and the first and second upper vertical side plateheights 100 and 116 at an angle less than 60 degrees, and the beam 160is generally perpendicular to the vertical post 12.

Optionally, the first and second upper vertical side plates 92 and 108are oriented approximately 90 degrees relative to the first and secondlower vertical side plates 20 and 36, and the third upper vertical sideplate 124 is oriented approximately 90 degrees relative to the third andfourth lower vertical side plates 66 and 78 and the first or secondlower vertical side plate 20 or 36 comprise the plurality of lateralplates 162 and 166.

Optionally, the third upper vertical side plate top 126 extends betweenthe first and second upper vertical side plates 92 and 108 and isgenerally flat as it extends between the first and second upper verticalside plates 92 and 108.

Optionally, the lower cavity 90 and the lateral cavity 164 are generallyrectangular in shape.

Optionally, the vertical post 12 is a wall stud of the building 14.

Optionally, the rafter 16 is also positioned on the horizontal plate 52.

Optionally, the lateral cavity 164 is configured to allow a beam 172 toextend generally perpendicular to the first, second, third and fourthlower vertical side plate heights 28, 44, 71, and 83.

It will be understood that the building 14 will generally include aplurality of rafters 14, vertical posts 12 and beams 172, as shown inFIGS. 1, 11, and 28 for example.

The Embodiments of FIGS. 30-39

FIGS. 30-39 show an alternate version of the rafter bracket 10 of FIGS.1-29. In FIGS. 30-39, the rafter 16 sits on an upper plate top surface196, as opposed to resting in an upper cavity, as explained below.

More particularly, in the embodiments of FIGS. 30-39, the rafter bracket10, which is particularly suited for steel rafters 16, includes at leastone upper brace plate 176 comprising a brace plate top 178, which may beabove the first, second, third and fourth lower vertical side plate tops24, 40, 68, and 80 and above the horizontal plate 52, a brace platebottom 180 extending from the horizontal plate 52, a brace plate height182 extending from the brace plate top 178 to the brace plate bottom 180and substantially parallel to the first and second lower vertical sideplate heights 28 and 44, a brace plate first end 184, a brace platesecond end 186, and a brace plate length 188 extending from the braceplate first end 184 to the brace plate second end 186 and generallyperpendicular to the brace plate height 182. Optionally, the rafterbracket 10 further includes an upper plate 190 resting on the braceplate top 178. The upper plate 190 may be oriented so that it's notparallel to the horizontal plate 52 (e.g., at an angle 192 of betweenabout 5 degrees and about 60 degrees relative to the horizontal plate52, as depicted in FIG. 33 for example. The angle 192 will depend on thepitch of the roof). The upper plate 190 may include a bottom surface 194facing the horizontal plate 52, a top surface 196 opposite the bottomsurface 194 and a thickness 198 extending from the bottom surface 194 tothe top surface 196. Optionally, the at least one upper brace plate 174tapers in increasing height 182 from the first end 184 to the second end186, as best seen in FIG. 35. Optionally, the upper plate 190 comprisesat least one fastener aperture 200 extending from the upper plate topsurface 196 to the upper plate bottom surface 194. Optionally, as withthe prior embodiments, in the rafter bracket 10 of FIGS. 30-39, thevertical post 12 of the building 14 is positioned between the first,second, third and fourth lower vertical side plates 20, 36, 66, and 78in the lower cavity 90 and the rafter 16 of the building 14 ispositioned on the upper plate top surface 196, as best seen in FIGS.30-32. Optionally, at least one upper fastener 202 is positioned throughan upper plate fastener aperture 200 and the rafter 16, as best seen inFIG. 32. Optionally, at least one lower fastener 150 is positionedthrough a fastener aperture 22 of the first lower vertical side plate20, into and optionally through the vertical post 12 and optionally,then through a fastener aperture 38 of the second lower vertical sideplate 36. Optionally, as best seen in FIGS. 32, 35 and 37-39, as withthe prior embodiments, the third and fourth lower vertical side platefastener apertures 69 and 79 may be aligned. The first and second lowervertical side plate fastener apertures 20 (not shown in FIG. 35) and 38may be vertically aligned with each other and located above or below thethird and fourth lower vertical side plate fastener apertures 69 and 79so that a first lower fastener 150 may be positioned through a fasteneraperture 22 of the first lower vertical side plate 20, through thevertical post 12 and then through a fastener aperture 38 of the secondlower vertical side plate 36 and another lower fastener 150 may bepositioned through a fastener aperture 69 of the third lower verticalside plate 66, through the vertical post 12 and then through a fasteneraperture 79 of the fourth lower vertical side plate 78 with interferingwith the first lower fastener 150. Optionally, the at least one upperbrace plate 176 is substantially triangular/wedge-shaped in shape, asbest seen in FIG. 35. Optionally, the rafter bracket 10 comprises twoidentically shaped and sized upper brace plates 176 that are separatedby a space 206 and that are oriented substantially parallel to eachother, as best seen in FIG. 33. Optionally, the distance 204 between theupper brace plates 176 is substantially constant along the brace platelength 188. Except as otherwise noted, the rafter bracket 10 of FIGS.30-39 may be otherwise similar to any of the rafter brackets 10described above and may include for example the lateral plates 162 and166, as shown in FIGS. 30-39. Optionally, as with the prior embodiments,the third lower vertical side plate 66 and fourth lower vertical sideplate 78 are separated a distance 208 that is substantially constantalong the third lower vertical side plate and fourth lower vertical sideplate lengths 88 and substantially parallel to the horizontal platewidth 58.

As compared to FIG. 37, in FIGS. 38-39, the upper plate 190 is not alsoresting on the horizontal plate 52 to provide additional space forfasteners underneath.

PART LIST

rafter bracket 10 purlin 11 vertical post/stud 12 building 14 rafter 16roof 18 first lower vertical side plate 20 first lower vertical sideplate fastener hole 22 first lower vertical side plate top 24 firstlower vertical side plate bottom 26 first lower vertical side plateheight 28 first lower vertical side plate first end 30 first lowervertical side plate second end 32 first lower vertical side plate width34 second lower vertical side plate 36 second lower vertical side platefastener 38 hole second lower vertical side plate top 40 second lowervertical side plate bottom 42 second lower vertical side plate height 44second lower vertical side plate first end 46 second lower vertical sideplate second 48 end second lower vertical side plate width 50 horizontalplate 52 horizontal plate first end 54 horizontal plate second end 56horizontal plate width 58 horizontal plate proximal end 60 horizontalplate distal end 62 horizontal plate length 64 third lower vertical sideplate 66 third lower vertical side plate top 68 third lower verticalside plate fastener 69 hole third lower vertical side plate bottom 70third lower vertical side plate height 71 third lower vertical sideplate proximal 72 end third lower vertical side plate distal end 74third lower vertical side plate length 76 fourth lower vertical sideplate 78 fourth lower vertical side plate fastener 79 hole fourth lowervertical side plate top 80 fourth lower vertical side plate bottom 82fourth lower vertical side plate height 83 fourth lower vertical sideplate proximal 84 end fourth lower vertical side plate distal end 86fourth lower vertical side plate length 88 lower cavity 90 first uppervertical side plate 92 first upper vertical side plate fastener hole 94first upper vertical side plate top 96 first upper vertical side platebottom 98 first upper vertical side plate height 100 first uppervertical side plate first end 102 first upper vertical side plate secondend 104 first upper vertical side plate length 106 second upper verticalside plate 108 second upper vertical side plate fastener 110 hole secondupper vertical side plate top 112 second upper vertical side platebottom 114 second upper vertical side plate height 116 second uppervertical side plate first end 118 second upper vertical side platesecond 120 end second upper vertical side plate length 122 third uppervertical side plate 124 third upper vertical side plate top 126 thirdupper vertical side plate bottom 128 third upper vertical side platefirst end 130 third upper vertical side plate second end 132 third uppervertical side plate length 134 third upper vertical side plate height135 upper cavity 136 first distance 138 second distance 140 angle 142rafter first end 144 rafter second end 146 rafter length 148 fasteners150 vertical post height 152 vertical post top end 154 vertical postbottom end 158 beam 160 side lateral plate 162 lateral cavity 164 bottomlateral plate 166 brace 168 side lateral plate fastener apertures 170beam 172 bottom lateral plate fastener aperture 174 upper brace plate176 Brace plate top 178 Brace plate bottom 180 Brace plate height 182Brace plate first end 184 Brace plate second end 186 Brace plate length188 Upper plate 190 Angle 192 Upper plate bottom surface 194 Upper platetop surface 196 Upper plate thickness 198 Upper plate fastener aperture200 Upper plate fastener 202 Distance between upper brace plates 204Space 206 Distance between third and fourth lower 208 vertical plates

Having now described the invention in accordance with the requirementsof the patent statutes, those skilled in the art will understand how tomake changes and modifications to the disclosed embodiments to meettheir specific requirements or conditions. Changes and modifications maybe made without departing from the scope and spirit of the invention. Inaddition, the steps of any method described herein may be performed inany suitable order and steps may be performed simultaneously if needed.

Terms of degree such as “generally”, “substantially”, “about” and“approximately” as used herein mean a reasonable amount of deviation ofthe modified term such that the end result is not significantly changed.For example, these terms can be construed as including a deviation of atleast ±5% of the modified term if this deviation would not negate themeaning of the word it modifies.

What is claimed is:
 1. A rafter bracket configured to connect a verticalpost of a building to a rafter of the building, the rafter bracketcomprising: a first lower vertical side plate comprising at least onefirst lower vertical side plate fastener aperture, a first lowervertical side plate top, a first lower vertical side plate bottom, afirst lower vertical side plate height extending from the first lowervertical side plate top to the first lower vertical side plate bottom, afirst lower vertical side plate first end, a first lower vertical sideplate second end opposite the first end, and a first lower vertical sideplate width extending from the first lower vertical side plate first endto the first lower vertical side plate second end and substantiallyperpendicular to the first lower vertical side plate height; a secondlower vertical side plate opposite the first lower vertical side plateand extending substantially parallel to the first lower vertical sideplate, the second lower vertical side plate comprising at least onesecond lower vertical side plate fastener aperture, a second lowervertical side plate top, a second lower vertical side plate bottom, asecond lower vertical side plate height extending from the second lowervertical side plate top to the second lower vertical side plate bottomand substantially parallel to the first lower vertical side plateheight, a second lower vertical side plate first end, a second lowervertical side plate second end opposite the first end, and a secondlower vertical side plate width extending from the second lower verticalside plate first end to the second lower vertical side plate second endand substantially perpendicular to the first lower vertical side plateheight; a horizontal plate connected to at least one of the first andsecond lower vertical side plates, the horizontal plate located abovethe first and second lower vertical side plate bottoms, the horizontalplate extending substantially perpendicular to the first and secondlower vertical side plate heights, the horizontal plate comprising ahorizontal plate first end, a horizontal plate second end, a horizontalplate width extending from the horizontal plate first end to thehorizontal plate second end and substantially parallel to the firstlower vertical side plate width and second lower vertical side platewidth, a horizontal plate proximal end, a horizontal plate distal end,and a horizontal plate length extending from the horizontal plateproximal end to the horizontal plate distal end and substantiallyperpendicular to the horizontal plate width; a lower cavity defined bythe first and second lower vertical side plates; at least one upperbrace plate resting on the horizontal plate and comprising a brace platetop above the first and second lower vertical side plate tops and abovethe horizontal plate, a brace plate bottom extending from the horizontalplate, a brace plate height extending from the brace plate top to thebrace plate bottom and substantially parallel to the first and secondlower vertical side plate heights, a brace plate first end, a braceplate second end, and a brace plate length extending from the braceplate first end to the brace plate second end and generallyperpendicular to the brace plate height; an upper plate resting on thebrace plate top, the upper plate oriented at an angle greater than 1degrees and less than 90 degrees relative to the horizontal plate, theupper plate comprising a bottom surface facing the horizontal plate anda top surface opposite the bottom surface; wherein the upper platecomprises at least one fastener aperture extending from the upper platetop surface to the upper plate bottom surface, wherein the first lowervertical side plate and second lower vertical side plate are separated afirst distance, the first distance substantially constant along thefirst lower vertical side plate and second lower vertical side platewidths and substantially parallel to the horizontal plate length,wherein the vertical post of the building is positioned between thefirst and second lower vertical side plates in the lower cavity, whereinthe rafter of the building is positioned on the upper plate top surface,wherein at least one upper fastener is positioned through an upper platefastener aperture and into the rafter, wherein at least one lowerfastener is positioned through a fastener aperture of the first lowervertical side plate and into the vertical post, and further wherein therafter extends upwardly at an acute angle relative to the horizontalplate from the brace plate first end to the brace plate second end.